197,551 research outputs found
Yossif Ivanov, violín (Bélgica)
Concierto interpretado por el Violínista Yossifin Ivanov, en compañía del pianista Philippe Ivanov. Aclamado por The Strad como «un músico que emana autoridad y presencia», Yossif Ivanov se posicionó rápidamente en la escena musical tras haber obtenido el primer puesto en el Concurso Internacional de Montreal con tan solo 16 años. Dos años más tarde ocupó el segundo lugar y le fue otorgado el premio del público en el Concurso Internacional de Música Reina Isabel de Bélgica, en Bruselas. En las últimas temporadas, Yossif Ivanov ha despertado la admiración del público en sus presentaciones con la Orquesta Sinfónica de Bournemouth, la Japan Century, la de la Ópera de Toulon, la Sinfónica de Kaohsiung y con la Academia de Cuerdas de Taiwán. En la próxima temporada se presentará en el Wigmore Hall de Londres, en el St. George’s Hall de Bristol y en The Phillips Collection, en Washington D.C., entre otros. Además, hará una gira por Colombia y regresará a Japón para su primera presentación con la Orquesta Sinfónica Metropolitana de Tokio.
Este concierto también se celebró en las siguientes ciudades:
- Bucaramanga, el lunes 31 de julio de 2017 a las 7:00 p. m., en el Auditorio Luis A. Calvo de la Universidad de Santander
- Tunja, el martes 1 de agosto de 2017 a las 6: 00 p.m. en el Paraninfo de la Universidad de Boyacá
- Cúcuta, el viernes 4 de agosto de 2017 a las 7:00 p.m. en la Sala Múltiple del Área Cultural del Banco de la Repúblic
Tradurre Vjačeslav Ivanov nella contemporaneità. Questioni linguistiche e considerazioni ermeneutiche
Analisi diacronica dell'opera poetica di Vjac. Ivanov nella traduzione in italian
Spathoderma grossum Scheltema & Ivanov 2000
<i>Spathoderma grossum</i> Scheltema & Ivanov, 2000 <p>Scheltema & Ivanov, 2000: 359.</p> <p>(Figures 25, 26; Tables 4a, 5)</p> <p> <b>Additional material examined:</b> Guiana Basin, 5 specimens (Table 4a); Argentine Basin, 66 specimens (Table 5); 1 new record, from West European Basin, 50º27.3'N, 13º20.9'W, 2,506 m (RV Chain cruise 106, stn 318, 19.08.1972).</p> <p> <b>Distribution:</b> Amphi-Atlantic: Eastern Atlantic from the West European Basin to the Cape Basin at abyssal depths> 4,000 m (Scheltema & Ivanov, 2000), except shallower in the northern West European Basin; Western Atlantic from the Guiana Basin on the continental rise at 3,859 m to the abyss at 4,980 m, and not reaching the abyss in the Argentine Basin, 2,440 –3,906 m (Figs 25, 26).</p> <p> <b>Remarks:</b> The new records indicate that <i>S. grossum</i>, as a primarily abyssal or lower continental rise species, occurs on both sides of the Atlantic south of 13°N, but extends further north to 50°N in the eastern Atlantic.</p>Published as part of <i>Ivanov, Dmitry L. & Scheltema, Amélie H., 2008, NMR solution structures of KAP- 1 PHD finger-bromodomain, pp. 1-60 in Zootaxa 1885</i> on page 33, DOI: 10.13018/bmr11036, <a href="http://zenodo.org/record/5133706">http://zenodo.org/record/5133706</a>
Novonaydennyy portret Vyach. Ivanova raboty M. Sabashnikovoi
In 1906 Margarita Sabashnikova (1882, Moscow — 1973, Stuttgart) thought about doing a unique kind of book-album: portraits of Vyacheslav Ivanov, K. Somov, K. Balmont, M. Kuzmin, Andrei Bely, L. Bakst, A. Remizov and S. Gorodetsky, and of Sabashnikova herself. The images were to be accompanied by selected verses of these poets and M. Voloshin’s essays dedicated to them. This project was in line with the theory and practice of the synthesis of the arts, of a dialogue of word and pictorial image. Sabashnikova planned a similar project in the late 1910’s - a book album with portraits of Vyach. Ivanov, N. Berdyaev, P. Muratov, B. Zaitsev that would be accompanied by records of conversations with them. The only surviving print from this unfinished project is published here — the portrait of Vyach. Ivanov
THE GENEROUS IVANOV
This article attempts to reconstruct the biography of the 2nd guild merchant of Ekaterinburg — Mikhail Ivanovich Ivanov, a native of the Simbirsk province and a peasant by origin, who was engaged in entrepreneurship in the Urals for more than 40 years. The author considers the main lines of the merchant’s business activity: Ivanov’s trade of wine and vodka, colonial groceries, and bakery production, as well as the search for gold-bearing areas and development of gold mines in the Perm and Orenburg provinces. The article analyzes the evolution of M. I. Ivanov’s views on entrepreneurship, which led to the rejection of a number of areas of his business. Considerable attention is paid to the social and Church activities of M. Ivanov. The author studies the nature and methods of his cooperation with secular and religious organizations and institutions, including the Ekaterinburg City Duma, Society of Trustees of the House of Diligence, and Society for Assistance to insufficient students of the Ekaterinburg Gymnasium, as well as the Ekaterinburg Department of the Imperial Orthodox Palestine Society, and Society for Mutual Assistance to Students and Teachers in Church schools of the Ekaterinburg diocese, and others. The article reveals M. I. Ivanov’s contribution to the creation of the House of Diligence in Ekaterinburg, his role in constructing a number of churches in the Perm, Simbirsk and Tobolsk provinces as well as in the famous Kozelsk monastery of Vvedenskaya Optina Pustyn. It shows how a successful, though not extremely wealthy, entrepreneur became one of the most generous benefactors in the history of Ekaterinburg. The author tells about Ivanov’s residence in the hermitage at Optina Pustyn for several years and also reveals the important role of M. I. Ivanov in organizing a visit of the outstanding Kronstadt Archpriest Ioann Ilyich Sergiev to Ekaterinburg
Relativistic calculation of the electron-momentum shift in tunneling ionization
We describe a procedure for the solution of the time-dependent Dirac equation. The procedure is based on the relativistic generalization of the matrix iteration method. We use this procedure to study electron-momentum distribution along the laser-beam propagation direction for the process of the tunneling ionization of a hydrogen atom. We found, in agreement with the experimental observations [C. T. L. Smeenk, L. Arissian, B. Zhou, A. Mysyrowicz, D. M. Villeneuve, A. Staudte, and P. B. Corkum, Phys. Rev. Lett. 106, 193002 (2011)], that relativistic effects lead to appreciable deviation of the distribution from the strict left-right symmetry present in the nonrelativistic case. The expectation value of the momentum along the laser-beam propagation direction grows linearly with intensity and follows closely the behavior of the expectation value of the kinetic energy divided by the speed of light. These features agree with the experimental results [C. T. L. Smeenk, L. Arissian, B. Zhou, A. Mysyrowicz, D. M. Villeneuve, A. Staudte, and P. B. Corkum, Phys. Rev. Lett. 106, 193002 (2011)]171711Nsciescopu
Volgere il simbolo nella forma Riflessioni sulla scrittura poetica di Vjačeslav Ivanov. (Postfazione e Note ai testi)
Presentare un poeta carismatico della levatura intellettuale di Vjačeslav Ivanov impone riflessioni, quesiti critici e ipotesi non solo di carattere filologico o traduttologico, ma più ampiamente di natura ermeneutica. Alla riflessione sulla scelta antologica dei testi proposti in traduzione si affianca una rivisitazione della ricezione ivanoviana nella cultura poetica italiana del Novecento. La sezione "Note ai testi" a cura di M. Sabbatini (pp. 96-114) racchiude anche le indispensabili voci degli altri autori-traduttori (A. Lena Corritore, A. Bruni, M.C. Ghidini, G. Giuliano, K. Landa, S. Toscano) sulle dominanti stilistiche delle singole traduzioni e sulle peculiarità filologiche dei brani scelti
The Porcupine Bank Canyon coral mounds: oceanographic and topographic steering of deep-water carbonate mound development and associated phosphatic deposition
The head of a canyon system extending along the western Porcupine Bank (west of Ireland) and which accommodates a large field of giant carbonate mounds was investigated during two cruises (INSS 2000 and TTR-13). Multibeam and sidescan sonar data (600–1,150 m water depth) suggest that the pre-existing seabed topography acts as a significant factor controlling mound distribution and shape. The mounds are concentrated along the edges of the canyon or are associated with a complex fault system traced around the canyon head, comprising escarpments up to 60 m high and several km long. The sampling for geochemical and petrographic analysis of numerous types of authigenic deposits was guided by sidescan sonar and video recordings. Calcite-cemented biogenic rubble was observed at the top and on the flanks of the carbonate mounds, being associated with both living and dead corals (Lophelia pertusa, Madrepora oculata and occasional Desmophyllum cristagalli). This can plausibly be explained by dissolution of coral debris facilitated by strong currents along the mound tops and flanks. In turn, the dissolved carbon is recycled and precipitated as interstitial micrite. Calcite, dolomite and phosphatic hardgrounds were identified in samples from the escarpment framing the eastern part of the survey area. The laterally extensive phosphatic hardgrounds represent a novel discovery in the region, supplying hard substrata for the establishment of new coral colonies. Based on existing knowledge of regional oceanographic conditions, complemented with new CTD measurements, it is suggested that water column stratification, enhanced bottom currents, and upwelling facilitate the deposition of organic matter, followed by phosphatisation leading to the formation of phosphate-glauconite deposits. The occurrence of strong bottom currents was confirmed by means of video observations combined with acoustic and sampling data, providing circumstantial evidence of fine- to medium-grained sand. Evidently, slope breaks such as escarpments and deep-water canyon headwalls are important structural elements in the development of mature carbonate mounds induced by deep-water coral growth. Stable isotope data show no evidence of methane-derived carbon in the carbonates and lithified sediments of the Porcupine Bank Canyon mounds
Simulation of thermal plant optimization and hydraulic aspects of thermal distribution loops for large campuses
Following an introduction, the author describes Texas A&M University and its utilities system. After that, the author presents how to construct simulation models for chilled water and heating hot water distribution systems. The simulation model was used in a $2.3 million Ross Street chilled water pipe replacement project at Texas A&M University. A second project conducted at the University of Texas at San Antonio was used as an example to demonstrate how to identify and design an optimal distribution system by using a simulation model. The author found that the minor losses of these closed loop thermal distribution systems are significantly higher than potable water distribution systems. In the second part of the report, the author presents the latest development of software called the Plant Optimization Program, which can simulate cogeneration plant operation, estimate its operation cost and provide optimized operation suggestions. The author also developed detailed simulation models for a gas turbine and heat recovery steam generator and identified significant potential savings. Finally, the author also used a steam turbine as an example to present a multi-regression method on constructing simulation models by using basic statistics and optimization algorithms. This report presents a survey of the author??s working experience at the Energy Systems Laboratory (ESL) at Texas A&M University during the period of January 2002 through March 2004. The purpose of the above work was to allow the author to become familiar with the practice of engineering. The result is that the author knows how to complete a project from start to finish and understands how both technical and nontechnical aspects of a project need to be considered in order to ensure a quality deliverable and bring a project to successful completion. This report concludes that the objectives of the internship were successfully accomplished and that the requirements for the degree of Degree of Engineering have been satisfied
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